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| data device corporation 105 wilbur place bohemia, new york 11716 631-567-5600 fax: 631-567-7358 www.ddc-web.com for more information contact: technical support: 1-800-ddc-5757 ext. 7771 features ? up to six channels output amplitudes: 2 & 6.8 vrms l-l resolver, 11.8 vrms l-l resolver, or synchro, 90 vrms l-l synchro 60/400 hz output voltages can be scaled lower transformer isolation available on-board programmable oscillator option with 1.5va drive programmable dynamic rotation programmable two-speed dll?s and libraries for windows? 9x/2000/xp, windows nt?, linux, and labview?, ( datasims support) 0 to +70c standard operating temperature two-speed simulation description the sb-36220ix is a pci bus card that contains up to six channels of fully independent digital-to-synchro (d/s) or digital-to-resolver (d/r) converters. for each channel the conversion process is imple- mented using a ddc d/s or d/r converter. optional output scott-t transformers are available for the dsc-11524 d/s converter series. an optional on-board reference that can be configured for 2, 26 or 115 volts eliminates the need for an external oscillator. the sb- 36220ix can also be used to simulate dynamic rotation in both single speed and two-speed systems. the sb-36220ix comes with ?c? libraries along with an easy to use windows graphical user interface (gui) to allow this card to be used in a wide range of applications. linux software is also available. applications the sb-36220ix is designed for modern, high performance industri- al and military control systems. synchros and resolvers are used in applications where position feedback information is required. providing accurate position information to simulate synchro/resolver outputs is essential to evaluate overall system performance. the sb- 36220ix is ideal for test stands and simulators. it can be used as an upgrade from the dsc-36020 or dsc-36022 isa cards. all trademarks are the property of their respective owners. ? 2000 data device corporation sb-36220ix digital-to-synchro/resolver pci bus six channel converter card ? make sure the next card you purchase has...
2 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 figure 1. sb-36220ix block diagram channel 6 channel 1 rh out rl out s1 s2 s3 s4 rh rl s1 s2 s3 s4 rh rl p1 output scaling rh rl d/s or d/r hybrid converter output scaling rh rl d/s or d/r hybrid converter amplifier or transformer (optional) oscillator internal register address decoder direct output scott-t transformer or pci bus address data (optional) 3 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 value parameter unit table 1. sb-36220ix specifications (per chan) these specifications apply over the rated power supply, temperature, and reference frequency ranges; 10% signal amplitude variation and 10% har- monic distortion. resolution accuracy dsc-11520-305 dr-11525-305 dsc-11524-304 on board oscillator option p/n carrier frequency voltage range drive signal output synchro resolver resolver (single ended) reference input option p/n carrier frequency type (differential) voltage (5%) input impedance differential (min) single ended (min) common-mode range power supply (note 2) voltage current fully loaded (1.5va osc option + 6 hybrids dsc-11520/24, dr-11525) 6 hybrids only (dsc-11520/24, dr-11525) temperature range operating (xix-3xxx) storage physical characteristics size weight in. mm. lbs. full-size pci format. double-width card when 90 vrms/115 vrms required. 12.3 x 4.2 x 0.91 312 x 106.7 x 23.1 1 max, depending on configuration c c 0 to +70 -40 to +85 vdc a max. a max. +5 4 2 vrms l-l vrms l-l vrms l-l hz vrms ohms ohms vpeak i0 47 - 7k diff. 4.4, 26,115 100k 50k 50 i1 400 diff. 26 100k 50k 50 i2 360 - 400 diff. 115 300k 200k 200 11.8 11.8 2.0 or 6.8 (see note 1) 11.8 11.8 90 ? hz vrms ma max. i4 57 - 7k 0 - 3.4 300 i5 360 - 7k 0 - 26 60 i6 57 - 440 0 - 115 13 47-1khz 1 min. 1 min. 2 min. for frequency higher than 1khz, use the dr-11525 and refer to the converter data sheet specs. bits 12 or 16 programmable solid state transformer isolated figure 2. control panel easy to use control panel allows position data entry for each channel. this is ideal for test environments. figure 3. options panel the options panel allows the oscillator to be set for amplitude and frequency, dynamic rotation and two-speed mode of operation. sb-3622x software display windows solid state transformer isolated solid state transformer isolated i3 60 diff. 115 300k 200k 200 note 1: s1 and s4 are no connect, because outputs are single ended (common gnd to common gnd on card). note 2 : requires a 5v pci card slot, will not operate on a 3.3v pci slot. note 3 : for specific specifications not listed, refer to the specific hybrid type data sheet. see ordering info to determine hybrid type used. software window gui example software and dos console application example software are included. the provided ddl allows the user to create custom application software. the software ddl provides function calls to control resolution, bandwidth, refer- ence amplitude and reference frequency. this provides access to angular information and can drive dynamic rotation of the output. datasims software support available, contact ddc software applications department for details. hardware configuration the sb-3622x is a pci device, and as such does not require any jumpers or switches to set the base address or interrupt values. the job of configuration for plug-and-play pci configuration is performed by the pc bios. during the initial power on boot process, the bios performs an enumeration of the pci bus and dynamic rotation rps min/max at 12 bit resolution (0.03 to 2014) at 16 bit resolution (0.03 to 125) 4 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 locates a configuration in the system that satisfies the card requirements. the card communicates with the bios to deter- mine how much memory it requires, along with any other oper- ating parameters that the system needs to know by way of con- figuration registers built into the card. these registers are configured at the factory to contain the opti- mum values for the operation of the sb-3622x. there is no need for the user to provide a specific memory location or size, or have to manipulate interrupts to get the digital-to-synchro/resolver (d-s/r) card installed. the sb-3622x pci card and software dri- vers allow for shared interrupts, thus simplifying the installation and reducing the risk of device conflicts. signal input / output configuration input and output options are created by factory installation of jumpers (tb1 to tb6) on each of the available channels. table 2 lists the jumper block designations for each channel. table 3 lists the ?d? connector reference input pins for each channel. table 4 lists the jumper installation for each input option. table 5 lists the jumper installation for each output option. figure 4 shows the jumper location and configuration for jumper blocks tb1 to tb6. pins 1 through 6 of each tb jumper block (tb1-tb6) determine the card?s output configuration. pins 7 through 10 determine the card?s input configuration. note: the output signal configuration of the hybrids will match the output type option selected for types 5 through 8 (see ordering information) which require a daughter board. input configuration tbx jumpers are configured as per table 4 to select the appro- priate input option based upon the card?s reference option (see ordering information). u4 u2 u3 u1 u11 u11 t3 1 23 4 5 6 7 8 9 10 2 13 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 10 9 10 8 7 6 5 4 3 2 1 10 10 10 10 10 10 9 8 7 6 5 4 3 2 1 10 9 8 7 6 5 4 3 2 1 tb1 tb2 tb4 tb5 tb3 tb6 figure 4. sb-3622x jumper location tb1 1 tb2 2 tb3 3 tb4 4 tb5 5 tb6 6 jumper block channel table 2. tbx jumper block designations table 3. ?d? connector channel reference input assignments 1 17 2 24 3 6 4 13 5 8 6 14 channel reference high 19 7 22 9 15 5 reference low pin # function pin # function rh_ext_ch1 rh_ext_ch2 rh_ext_ch3 rh_ext_ch4 rh_ext_ch5 rh_ext_ch6 rl_ext_ch1 rl_ext_ch2 rl_ext_ch3 rl_ext_ch4 rl_ext_ch5 rl_ext_ch6 5 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 pin 17 ch1_rh_input pin 19 ch1_rl_input reference input caution: incorrect configuration can damage card. tbx jumpers 7-8, 9-10 don't care in out (note 1) 4.4v 26v 115v "d" connector connect the reference voltage to each active channels note 1: factory configured for 115v configuration, no jumpers in 7-8, 9-10. 7 8 9 10 ref volt ref input, rh_ext & rl_ext on the "d" connector. internal channel to (26/115) reference input internal channel to (4.4) (apply external reference voltage here) thru ch6_rh_input ch6_rl_input table 4a. using the solid state reference input (option 0) 6 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 ch1_rh_input pin 17 ch1_rh_input ch1_rl_input pin 19 ch1_rl_input 26 vrms differential output caution: incorrect configuration can damage card. "d" connector connect the reference voltage to channel 1 on the "d" connector (rh pin 17 and rl pin 19) only. this will convert the voltage connected into channel 1 to 26vrms and output this voltage on the d connector on rh_26_int (pin 25) and rl_int (pin 4). also, this voltage is input into the channel 1 reference input so that channel 1 is now ready for use. configuring additional channels: in order to use the same reference or excitation voltage used for channel 1 for additional channels, loop the 26 vrms output on the d connector from rh_26_int (pin 25) and rl_int (pin 4) to the reference high and low pins of channels 2 to 6 (see table 3). 7 8 9 10 reference transformer pin 4 rl_output pin 25 rh_output d connector (apply external reference voltage here. see table below.) (loop to channels 2 thru 6, rh/rl inputs as needed) ref input type option # voltage/freq 1 2 3 26v 400hz 115v 400hz 115v 60hz table 4b. using the transformer isolated external reference inputs (options 1, 2, 3) 7 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 pin 17 ch1_rh_input pin 19 ch1_rl_input 3.4 vrms differential output caution: incorrect configuration can damage card. reference transformer pin 4 osc output rl pin 25 or 38 osc output rh d connector internal oscillator optional on board reference oscillator wrap oscillator output to required input channels ch6 rh ch6 rl ref option #/volt oscillator output pin # rh rl 4 ( 3.4 v) 5 ( 26v ) 6 ( 115v ) 25 25 38 4 4 4 table 4c. using the optional on board reference oscillator (internal options 4, 5, 6) 8 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 type hybrid type table 5. output tbx jumper configuration (applies to tb1-6) jumpers installed card pinouts this section describes the pinouts for the card. the card has one connector, a 50-pin mini d connector. the pinouts for this mating connector are shown below. pin pin name table 6. sb-36220ix pinouts 1 -5v ext */output 26 s1_ch 6/output name 2 +15v ext */output 27 s3_ch 5/output 3 gnd 28 s1_ch 5/output 4 rl_int/output 29 s3_ch 6/output 5 rl_ext_ch 6/input 30 s2_ch 6/output 6 rh_ext_ch 3/ input 31 s4_ch 6/output 7 rl_ext_ch 2/ input 32 s2_ch 5/output 8 rh_ext_ch 5/ input 33 s4_ch 5/output 9 rl_ext_ch 4/ input 34 s3_ch 4/output 10 gnd 1 35 s1_ch 4/output 11 +5 ext */ output 36 s3_ch 3/output 12 -15 ext */ output 37 s4_ch 4/output 13 rh_ext_ch 4/ input 38 rh_115_int/ output 14 rh_ext_ch 6/ input 39 s1_ch 3/output 15 rl_ext_ch 5/ input 40 s4_ch 3/output 16 gnd 5 41 s2_ch 4/output 17 rh_ext_ch 1/ input 42 s2_ch 3/output 18 gnd 2 43 s1_ch 2/output 19 rl_ext_ch 1/ input 44 s1_ch 1/output 20 gnd 6 45 s3_ch 2/output 21 gnd 4 46 s2_ch 2/output 22 rl_ext_ch 3/ input 47 s4_ch 2/output 23 gnd 3 48 s2_ch 1/output 24 rh_ext_ch 2/ input 49 s3_ch 1/output 25 rh_26_int/ output 50 s4_ch 1/output pin 1 pin 50 pin 1 pin 25 side view of pins 1 thru 25* (solder lug detail) * each side consists of 2 rows of pins front view (d-connector detail) side view (connector shell detail) 36.70 30.48 7.5 note: all measurements are in mm unless otherwise specified. 18.0 12.7 39.0 pin 23 pin 24 pin 2 pin 3 pin 26 pin 25 figure 5. 50 pin d-type mating connector pn: 50 pin connector solder plug (3m 10150-3000ve) 50 pin connector junction shell (3m 10350-52fo-008) *no connection required, these are test points for internal power supplies. output configuration tbx jumpers are configured as per table 5 to select an appro- priate output option. output option # 3 5 8 1 11.8v synchro 3-4, 5-6, 7-8, 9-10 3-4, 5-6, 7-8, 9-10 n/a 2 11.8v resolver n/a 1-2, 5-6, 7-8, 9-10 7-8, 9-10 3 6.8v resolver n/a 1-2, 7-8, 9-10 n/a 4 2v resolver n/a n/a n/a 5 (note 3) 11.8v synchro n/a 3-4, 5-6, 7-8, 9-10 n/a 6 (note 3) 11.8v resolver n/a 1-2, 5-6, 7-8, 9-10 n/a 7 (note 3) 90v synchro n/a 3-4, 5-6, 7-8, 9-10 n/a 8 (note 3) 90v synchro n/a 3-4, 5-6, 7-8, 9-10 n/a notes: 1. n/a = no jumpers installed. 2. 90v output requires a transformer(refer to ordering information). 3. transformer coupled output configurations cannot be field reconfiigured (output types 5, 6, 7, and 8). 4. for reference type 0 & 6 when applying a 115v ref input remove jumpers 7-8 and 9-10. 9 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 reference input required (vrms) output option output type table 7. reference voltage settings required to obtain specified output voltages 1 multiplier x = 0 11.8v l-l synchro 26 0.45 2 11.8v l-l resolver 26 0.45 3 6.8v resolver (single ended) 26 0.26 4 2v resolver (single ended) 4.4 0.455 5 11.8v l-l synchro/400hz, transformer coupled 26 0.45 6 11.8v l-l resolver/400hz, transformer coupled 26 0.45 7 90v l-l synchro/400hz, transformer coupled 115 0.78 scaling lower output voltages all output voltages can be scaled down by lowering the required reference input voltage as follows: (where x is the output option ratio multiplier - refer to table 7). reference input voltage = desired output voltage x desired output voltage = 9v multiplier x = .45 (for option #1) reference input voltage = 9 v .45 reference input voltage = 20 v example: for a custom output voltage, using an 11.8v synchro option 1 card. (note that desired output voltage is lower than the card selection output voltage) reference options table 8 details the card?s reference isolation type. reference option reference type 0 external, solid state input t1 1 external, 26v/400hz transformer isolated input 2 external, 115v/400hz transformer isolated input 3 external, 115v/60hz transformer isolated input table 8. reference isolation type 4 5 6 internal, 3.4v high current (300ma, differential) solid state oscillator output internal, 26v high current (1.5va) transformer isolated oscillator output internal, 115v high current (1.5va) transformer isolated oscillator output t2 t3 t5 x x x x x signal connections synchro mode connect s1, s2, s3 s1 = x s2 = z s3 = y resolver mode connect s3 = +sin s1 = -sin s2 = +cos s4 = -cos single ended mode connections when using 2v single ended configurations, s1 and s4 on card connector are no connect. use associated analog ground per output channel for s1 and s4 resolver outputs used. 10 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 .580 2.473 .074 .573 12.285 3.875 .035 0.955max 0.105max 0.57max front back component area front component area single width card - applicable to reference types 0, 1, 2, 4, 5 and output types 1, 2, 3, 4 double width card - applicable to reference types 3, 6 and output types 5, 6, 7, 8 1.025 back component area front component area 0.57max slot guide card slot guide (shipped with card) - to be installed on card edge if needed. card slot guide figure 6. sb-36220ix mechanical outline 11 data device corporation www.ddc-web.com sb-36220ix l-01/06-0 ordering information sb-3622 x i x - x x x x supplemental process required blank = none n = conformal coat (note 7) hybrid type and accuracy (note 1) 3 = dsc-11520-305 (1 minute) 5 = dsc-11524-304 (2 minutes) 8 = dr-11525dx-305 (1 minute) number of channels: 1 = one channel 2 = two channels 3 = three channels 4 = four channels 5 = five channels 6 = six channels temperature range: 3 = 0c to +70c reference input type/oscillator output: 0 = external, solid state non-isolated (4.4 vrms, 26 vrms or 115 vrms) ( no on board oscillator) 1 = external, 26 vrms/400hz transformer isolated ( no on board oscillator) 2 = external, 115 vrms/400hz transformer isolated ( no on board oscillator) 3 = external, 115 vrms/60hz transformer isolated ( no on board oscillator) 4 = internal, 3.4 vrms differential (300 ma max) (notes 6, 8 ) 5 = internal, 1.5 va drive, 26 vrms transformer isolation (60 ma max) (note 8) 6 = internal, 1.5 va drive, 115 vrms transformer isolation (13 ma max) (notes 4, 8) 1 = 11.8 vrms l-l synchro 3/2 ma 2 = 11.8 vrms l-l resolver 8/2 ma 3 = 6.8 vrms resolver (note 5) 8/2 ma 4 = 2 vrms single ended resolver (notes 2 and 5, 9) 8/2 ma 5 = 11.8 vrms l-l synchro/400hz, transformer coupled (note 3) ? output type (note 1) hybrid type/ drive 26v 26v 26v 4.4v 26v for programmable internal oscillator selections, reference voltage required to obtain the listed output is : 6 = 11.8 vrms l-l resolver/400hz, transformer coupled (note 3) ? 7 = 90 vrms l-l synchro/400hz, transformer coupled (note 3) ? 26v 115v 5/15 ma 5/15 ma 5/15 ma ? 5/14 ma 5/14 ma 5/1.9 ma 1 min accuracy 2 min accuracy 0,1,2,3,5,6 0,1,2,3,5,6 0,1,2,3,5,6 0,1,2,3,4,5,6 (note 6) 0,1,2,5,6 reference input type/oscillator output selections 0,1,2,5,6 0,1,2,5,6 8 = 90 vrms l-l synchro/60hz, transformer coupled (note 3) ? 115v 5/1.9 ma 0,3,6 notes: 1) all channels are configured for the same converter type and output types. for non-standard configurations please contact fact ory. 2) 2 volt resolver output requires the dr-11525 converter, with a 4.4vrms reference voltage input. 3) transformer isolated output requires the dsc-11524 converter. (add 1.5 minutes to specified accuracy with transformer coupled option.), option output type 8, 90v 60hz adds 2.5 minutes to specified accuracy. 4) reference type 6 (internal, 115v high current) requires 2 slots. 5) outputs are single ended, s1 and s4 are no connect, use card appropriate channel common ground. 6) oscillator option #4 (3.4 vrms) is a low cost option when output voltages of 1.5 vrms or less are needed to be scaled with o utput type 4. 7) for conformal coated boards all components will be soldered down, no sockets. 8) oscillator output is programmable to max voltage of option selection range. frequency range is programmable per spec table 1. 9) for differential mode configuration, use s1, s2, s3, s4 and note that output voltage will be approx 4vrms and can be scaled down via ref input voltage. do not connect either differential pair to ground. included accessories: mn-3622xxx-001 hardware and software manual windows gui, dll?s and libraries software provided (cd format) 1 mating connector, 50 pin, d-type pci retainer and screws suggested mating connectors: -solder plug: 3m 10150-3000ve -junction shell: 3m 10350-52fo-008 hybrid type/ drive note: the above products contain tin-lead solder. 12 printed in the u.s.a. data device corporation registered to iso 9001:2000 file no. a5976 r e g i s t e r e d f i r m ? u the information in this data sheet is believed to be accurate; however, no responsibility is assumed by data device corporation for its use, and no license or rights are granted by implication or otherwise in connection therewith. specifications are subject to change without notice. please visit our web site at www.ddc-web.com for the latest information. l-01/06-0 105 wilbur place, bohemia, new york, u.s.a. 11716-2482 for technical support - 1-800-ddc-5757 ext. 7771 headquarters, n.y., u.s.a. - tel: (631) 567-5600, fax: (631) 567-7358 southeast, u.s.a. - tel: (703) 450-7900, fax: (703) 450-6610 west coast, u.s.a. - tel: (714) 895-9777, fax: (714) 895-4988 united kingdom - tel: +44-(0)1635-811140, fax: +44-(0)1635-32264 ireland - tel: +353-21-341065, fax: +353-21-341568 france - tel: +33-(0)1-41-16-3424, fax: +33-(0)1-41-16-3425 germany - tel: +49-(0)89-150012-11, fax: +49-(0)89-150012-22 japan - tel: +81-(0)3-3814-7688, fax: +81-(0)3-3814-7689 world wide web - http://www.ddc-web.com data device corporation registered to iso 9001:2000 file no. a5976 r e g i s t e r e d f i r m ? u discrete modules / pc board assemblies processing table ? ddc atp electrical test class 3 ipc-a-610 inspection / workmanship condition(s) method(s) test standard ddc processing for discrete modules/pc board assemblies |
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